Systematic Analysis of Spacer and Gate Length Scaling on Memory Characteristics in 3D NAND Flash Memory

Hee Young Bae; Seul Ki Hong; Jong Kyung Park

doi:10.3390/app14156689

Systematic Analysis of Spacer and Gate Length Scaling on Memory Characteristics in 3D NAND Flash Memory

Hee Young Bae, Seul Ki Hong, Jong Kyung Park

Dept. of Semiconductor Engineering

Seoul National University of Science and Technology (SNUST)

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This study investigates the impact of oxide/nitride (ON) pitch scaling on the memory performance of 3D NAND flash memory. We aim to enhance 3D NAND flash memory by systematically reducing the spacer length (Ls) and gate length (Lg) to achieve improved memory characteristics. Using TCAD simulations, we evaluate the effects of Ls and Lg scaling on the program speed, erase speed, and Z-interference. Furthermore, we examine the influence of concave and convex channel structures in the context of Ls and Lg scaling. By analyzing the distributions of electron and hole-trapped charges, we provide insights into optimizing the trade-offs between the memory window and retention characteristics. This research offers valuable guidelines for improving the reliability and performance of 3D NAND flash memory through a systematic analysis of spacer and gate length scaling.

Original language	English
Article number	6689
Journal	Applied Sciences (Switzerland)
Volume	14
Issue number	15
DOIs	https://doi.org/10.3390/app14156689
State	Published - Aug 2024

Keywords

3D NAND flash memory
gate length
memory window
ON pitch scaling
retention
spacer length
z-interference

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10.3390/app14156689

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title = "Systematic Analysis of Spacer and Gate Length Scaling on Memory Characteristics in 3D NAND Flash Memory",

abstract = "This study investigates the impact of oxide/nitride (ON) pitch scaling on the memory performance of 3D NAND flash memory. We aim to enhance 3D NAND flash memory by systematically reducing the spacer length (Ls) and gate length (Lg) to achieve improved memory characteristics. Using TCAD simulations, we evaluate the effects of Ls and Lg scaling on the program speed, erase speed, and Z-interference. Furthermore, we examine the influence of concave and convex channel structures in the context of Ls and Lg scaling. By analyzing the distributions of electron and hole-trapped charges, we provide insights into optimizing the trade-offs between the memory window and retention characteristics. This research offers valuable guidelines for improving the reliability and performance of 3D NAND flash memory through a systematic analysis of spacer and gate length scaling.",

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AU - Bae, Hee Young

AU - Hong, Seul Ki

AU - Park, Jong Kyung

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Y1 - 2024/8

N2 - This study investigates the impact of oxide/nitride (ON) pitch scaling on the memory performance of 3D NAND flash memory. We aim to enhance 3D NAND flash memory by systematically reducing the spacer length (Ls) and gate length (Lg) to achieve improved memory characteristics. Using TCAD simulations, we evaluate the effects of Ls and Lg scaling on the program speed, erase speed, and Z-interference. Furthermore, we examine the influence of concave and convex channel structures in the context of Ls and Lg scaling. By analyzing the distributions of electron and hole-trapped charges, we provide insights into optimizing the trade-offs between the memory window and retention characteristics. This research offers valuable guidelines for improving the reliability and performance of 3D NAND flash memory through a systematic analysis of spacer and gate length scaling.

AB - This study investigates the impact of oxide/nitride (ON) pitch scaling on the memory performance of 3D NAND flash memory. We aim to enhance 3D NAND flash memory by systematically reducing the spacer length (Ls) and gate length (Lg) to achieve improved memory characteristics. Using TCAD simulations, we evaluate the effects of Ls and Lg scaling on the program speed, erase speed, and Z-interference. Furthermore, we examine the influence of concave and convex channel structures in the context of Ls and Lg scaling. By analyzing the distributions of electron and hole-trapped charges, we provide insights into optimizing the trade-offs between the memory window and retention characteristics. This research offers valuable guidelines for improving the reliability and performance of 3D NAND flash memory through a systematic analysis of spacer and gate length scaling.

KW - 3D NAND flash memory

KW - gate length

KW - memory window

KW - ON pitch scaling

KW - retention

KW - spacer length

KW - z-interference

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DO - 10.3390/app14156689

M3 - Article

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JO - Applied Sciences (Switzerland)

JF - Applied Sciences (Switzerland)

IS - 15

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Systematic Analysis of Spacer and Gate Length Scaling on Memory Characteristics in 3D NAND Flash Memory

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Keywords

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